During a minor refactoring two years ago (part of 2486b446), the newly
created enum used the wrong part number - MCP7491x instead of MCP7941x. The
device description string got the same transposition of digits.
This change swaps the digits back to what they should be.
Reviewed by: emaste, tsoome, imp
Differential Revision: https://reviews.freebsd.org/D44436
Hot-unplugging a sound device, such as a USB sound card, whilst being
consumed by an application, results in an infinite loop until either the
application closes the device's file descriptor, or the channel
automatically times out after hw.snd.timeout seconds. In the case of a
detach however, the timeout approach is still not ideal, since we want
all resources to be released immediatelly, without waiting for N seconds
until we can use the bus again.
The timeout mechanism works by calling chn_sleep() in chn_read() and
chn_write() (see pcm/channel.c) in order to send the thread to sleep,
using cv_timedwait_sig(). Since chn_sleep() sets the CHN_F_SLEEPING flag
while waiting for cv_timedwait_sig() to return, we can test this flag in
pcm_unregister() (called during detach) and wakeup the sleeping
thread(s) to immediately kill the channel(s) being consumed.
Sponsored by: The FreeBSD Foundation
MFC after: 2 months
PR: 194727
Reviewed by: dev_submerge.ch, bapt, markj
Differential Revision: https://reviews.freebsd.org/D43545
Currently the snd_clone framework creates device nodes on-demand for
every channel, through the dsp_clone() callback, and is responsible for
routing audio to the appropriate channel(s). This patch gets rid of the
whole snd_clone framework (including any related sysctls) and instead
uses DEVFS_CDEVPRIV(9) to handle device opening, channel allocation and
audio routing. This results in a significant reduction in code size as
well as complexity.
Behavior that is preserved:
- hw.snd.basename_clone.
- Exclusive access of an audio device (i.e VCHANs disabled).
- Multiple processes can read from/write to the device.
- A device can only be opened as many times as the maximum allowed
channel number (see SND_MAXHWCHAN in pcm/sound.h).
- OSSv4 compatibility aliases are preserved.
Behavior changes:
Only one /dev/dspX device node is created (on attach) for each audio
device, as opposed to the current /dev/dspX.Y devices created by
snd_clone. According to the sound(4) man page, devices are not meant to
be opened through /dev/dspX.Y anyway, so it is best if we do not create
device nodes for them in the first place. As a result of this, modify
dsp_oss_audioinfo() to print /dev/dspX in the "ai->devnode", instead of
/dev/dspX.Y.
Sponsored by: The FreeBSD Foundation
MFC after: 2 months
Reviewed by: dev_submerge.ch, bapt, markj
Differential Revision: https://reviews.freebsd.org/D44411
Add an SCMI transport driver based on the virtio-scmi backend.
Reviewed by: andrew, bryanv
Sponsored by: Arm Ltd
Differential Revision: https://reviews.freebsd.org/D43048
Expose new scmi_buf_get/put API methods to build and send messages;
command request descriptors are now pre-allocated when the SCMI core is
initialized and kept in a free list, instead of being allocated on the
stack of the caller of the SCMI request.
Dynamically allocated descriptors enable the SCMI core to keep around
and track outstanding transactions for as long as needed, outliving the
lifetime of the caller stack: this allows tracking of late or missing
replies and it will be needed when adding support for SCMI transports
that allows for more messages to be inflight concurrently.
Move the existing CLK SCMI driver to the new API.
Reviewed by: andrew
Tested on: Arm Morello Board
Sponsored by: Arm Ltd
Differential Revision: https://reviews.freebsd.org/D43046
In order to be able to support also new, more parallel, SCMI transports
that by nature can allow multiple concurrent commands to be in-flight,
pending a reply, we must be able to use the sequence number provided in
the SCMI messages to track the message status, matching commands and
replies while keeping track of timeouts and duplicates.
Add the needed message tracking machinery in the core SCMI stack and
move the residual common tx/rx logic from the specific transports to
the core SCMI stack, while adding one more interface to let the
transports customize ther behaviour.
Reviewed by: andrew
Tested on: Arm Morello Board
Sponsored by: Arm Ltd
Differential Revision: https://reviews.freebsd.org/D43045
Introduce a couple of new SCMI interface methods to allow centralized
initialization of transport-specific features and a couple of methods
to handle message reception from the SCMI core.
Move SCMI SMT related calls out of the core common SCMI code into the
transport specific layers Mailbox/SMC.
Make SCMI Mailbox/SMC transports use the new interface methods for
initialization and message reception.
Reviewed by: andrew
Tested on: Arm Morello Board
Sponsored by: Arm Ltd
Differential Revision: https://reviews.freebsd.org/D43044
The SCMI/SMT memory areas are used from the agent and the platform as
channels to exchage commands and replies.
Once the platform has completed its processing and a reply is ready to
be read from the agent, the platform will relinquish the channel to the
agent by setting the CHANNEL_FREE bits in the related SMT area.
When this happens, though, the agent has still to effectively read back
the reply message and any other concurrent request happened to have been
issued in the meantime will have been to be hold back until the reply
is processed or risk to be overwritten by the new request.
The base->mtx lock that currently guards the whole scmi_request()
operation is released when sleeping waiting for a reply, so the above
mentioned race can still happen or, in a slightly different scenario,
the concurrent transmission could just fail, finding the channel busy,
after having sneaked through the mutex.
Adding a new mechanism to let the agent explicitly acquire/release the
channel paves the way, in the future, to remove such central commmon
lock in favour of new dedicated per-transport locking mechanisms, since
not all transports will necessarily need the same level of protection.
Add a flag, controlled by the agent, to mark when the channel has an
inflight command transaction still pending to be completed and make the
agent spin on it when queueing multiple concurrent messages on the same
SMT channel.
Reviewed by: andrew
Tested on: Arm Morello Board
Sponsored by: Arm Ltd
Differential Revision: https://reviews.freebsd.org/D43043
When the system is cold, the SCMI stack processes commands in polling
mode with the current polling mechanism being a check of the status
register in the mailbox controller to see if there is any pending
doorbell request.
Anyway, the completion interrupt is optional by the SCMI specification
and a system could have been simply designed without it: for this
reason polling on the mailbox controller status registers is not going
to work in all situations.
Moreover even alternative SCMI transports based on shared memory, like
SMC, will not have at all a mailbox controller to poll for.
On the other side, the associated SCMI Shared Memory Transport defines
dedicated channel flags and status bits that can be used by the agent to
explicitly request a polling-based transaction, even if the completion
interrupt was available, and to check afterwards when the platform has
completed its processing on the outstanding command.
Use SCMI/SMT specific mechanism to process transactions in polling mode.
Reviewed by: andrew
Tested on: Arm Morello Board
Sponsored by: Arm Ltd
Differential Revision: https://reviews.freebsd.org/D43042
Add a few new common public scmi_shmem methods to be used to handle SCMI
shared memory areas from multiple transports; while doing that review
the shared memory accesses to read only the SMT header fields strictly
relevant to the SCMI message processing.
Move all the SCMI shmem related code to the existing scmi_shmem.c file
and add a new dedicated scmi_shmem.h header.
Introduce some commonly needed message header manipulation macros.
Reviewed by: andrew
Tested on: Arm Morello Board
Sponsored by: Arm Ltd
Differential Revision: https://reviews.freebsd.org/D43041
Using the SCMI transport interface add a new SMC transport to the
SCMI stack.
Sponsored by: Arm Ltd
Differential Revision: https://reviews.freebsd.org/D43040
Add a new SCMI interface file to allow for multiple kind of transports
and move the mailbox transport to its own file, using the new interface.
Sponsored by: Arm Ltd
Differential Revision: https://reviews.freebsd.org/D43039
Allow the SCMI clock frequency to be queried back, useful for testing
the IRQ path via sysctl access.
Reviewed by: andrew
Sponsored by: Arm Ltd
Differential Revision: https://reviews.freebsd.org/D43038
After 5e63cdb457 the drivers didn't clear CAM_DIS_DISCONNECT in
ah*_handle_target_cmd() when needed, only set it.
Reported/tested by: HP van Braam <hp@tmm.cx>
MFC after: 1 week
bcm2838_xhci(4) is a shim for the XHCI controller on the Raspberry Pi 4B
SoC. It loads the controller's firmware before passing control to the
normal xhci(4) driver.
When xhci(4) is built as a module (and not in the kernel), bcm2838_xhci
is not built at all and the RPi4's XHCI controller won't attach due to
missing firmware.
To fix this, build a new module, bcm2838_xhci.ko, which depends on
xhci.ko. For the dependency to work correctly, also modify xhci to
provide the 'xhci' module in addition to the 'xhci_pci' module it
already provided.
Since bcm2838_xhci is specific to a quirk of the RPi4 SoC, only build
the module for AArch64.
Reviewed by: imp
Pull Request: https://github.com/freebsd/freebsd-src/pull/1142
QEMU for armv7 includes a PCI memory range whose CPU address is
greater than 4GB. This falls outside the range of armv7's global
mem_rman used by the nexus driver. As a result, pcib0 fails to
attach blocking all PCI devices.
Instead, change the driver to be a bit more tolerant. If allocating a
resource for a range fails, don't fail attaching the entire driver,
but do skip adding the associated PCI range to the relevant rman in
the pcib driver. This will prevent child devices from using BARs that
allocate from this range. In the case of QEMU on armv7 devices can
still allocate from an earlier PCI memory range that is within the
32-bit address space (and in fact none of the firmware-assigned memory
BARs use addresses from the upper range).
While here, reorder the operations on I/O ranges a bit: 1) print the
range under bootverbose first (rather than last) so that the range is
printed before any relevant errors for the range, 2) move
rman_manage_region last after the parent resource has been set and
allocated.
Reported by: markj, Jenkins
Reviewed by: markj
Fixes: d79b6b8ec2 pci_host_generic: Don't rewrite resource start address for translation
Differential Revision: https://reviews.freebsd.org/D44698
Add all the bits from the NVMe 2.0 base specification: CMD_EFFECTS to
indicate the commands and effects log page is supported, TELEMETRY to
indicate that the telemetry log pages and protocols are supported,
PERSISTENT_EVENTS to indicate the persistent event log is supported,
LOG_PAGES_PAGE to indicate that various log pages related to log page
and command support are supported: L0, L5, L12, and L13. and
DA4_TELEMETRY to indicate that the DA4 area is supported for telemetry
data.
Sponsored by: Netflix
This reverts commit 9eff58c6d5.
We are reverting dc831e93ba ("sound: Get rid of snd_clone and use
DEVFS_CDEVPRIV(9)"), so revert this commit as well since it depends
dc831e93ba.
Since all sndstat_entry->handler fields point to sndstat_prepare_pcm(),
we can just call the function directly, without assigning it to a
function pointer and calling it indirectly.
While here, move sndstat_prepare_pcm() to pcm/sndstat.c, as it is more
suitable there.
No functional change intended.
Sponsored by: The FreeBSD Foundation
MFC after: 2 weeks
Reviewed by: dev_submerge.ch, markj
Differential Revision: https://reviews.freebsd.org/D44571
The old errno value used is specifically for Capsicum and shouldn't be
co-opted in this way. It has special handling in the generic syscall
layer (see syscallret()). OpenBSD returns ENETUNREACH in this case;
let's do the same thing.
Reviewed by: kevans, imp
MFC after: 2 weeks
Sponsored by: Klara, Inc.
Differential Revision: https://reviews.freebsd.org/D44582
Instead of blindly copying two periods of audio data to and from DMA
buffers, keep track of the writing position and derive the actual
part of audio data that needs to be copied.
This approximately halves the number of samples copied in total.
Differential Revision: https://reviews.freebsd.org/D44084
Hot-unplugging a sound device, such as a USB sound card, whilst being
consumed by an application, results in an infinite loop until either the
application closes the device's file descriptor, or the channel
automatically times out after hw.snd.timeout seconds. In the case of a
detach however, the timeout approach is still not ideal, since we want
all resources to be released immediatelly, without waiting for N seconds
until we can use the bus again.
The timeout mechanism works by calling chn_sleep() in chn_read() and
chn_write() (see pcm/channel.c) in order to send the thread to sleep,
using cv_timedwait_sig(). Since chn_sleep() sets the CHN_F_SLEEPING flag
while waiting for cv_timedwait_sig() to return, we can test this flag in
pcm_unregister() (called during detach) and wakeup the sleeping
thread(s) to immediately kill the channel(s) being consumed.
Sponsored by: The FreeBSD Foundation
MFC after: 2 months
PR: 194727, 278055, 202275, 220949, 272286
Reviewed by: dev_submerge.ch, markj
Differential Revision: https://reviews.freebsd.org/D43545
Currently the snd_clone framework creates device nodes on-demand for
every channel, through the dsp_clone() callback, and is responsible for
routing audio to the appropriate channel(s). This patch gets rid of the
whole snd_clone framework (including any related sysctls) and instead
uses DEVFS_CDEVPRIV(9) to handle device opening, channel allocation and
audio routing. This results in a significant reduction in code size as
well as complexity.
Behavior that is preserved:
- hw.snd.basename_clone.
- Exclusive access of an audio device (i.e VCHANs disabled).
- Multiple processes can read from/write to the device.
- A device can only be opened as many times as the maximum allowed
channel number (see SND_MAXHWCHAN in pcm/sound.h).
- OSSv4 compatibility aliases are preserved.
Behavior changes:
Only one /dev/dspX device node is created (on attach) for each audio
device, as opposed to the current /dev/dspX.Y devices created by
snd_clone. According to the sound(4) man page, devices are not meant to
be opened through /dev/dspX.Y anyway, so it is best if we do not create
device nodes for them in the first place. As a result of this, modify
dsp_oss_audioinfo() to print /dev/dspX in the "ai->devnode", instead of
/dev/dspX.Y.
Sponsored by: The FreeBSD Foundation
MFC after: 2 months
Reviewed by: dev_submerge.ch, markj
Differential Revision: https://reviews.freebsd.org/D44411
Update the I2C controller logic to be more consistent with the
newer version of the controller reference manual.
This makes it work better on modern LS/LX platforms and avoids
unnecessary delays. Also fixes a lock leak.
MFC after: 7 days
Tested by: bz (LS1088a FDT), Pierre-Luc Drouin (Honeycomb, ACPI)
Differential Revision: https://reviews.freebsd.org/D44021
Move the code from the arm specific to the iicbus controller directory.
Split up between general logic and bus attachment code.
Add support for ACPI attachment in addition to FDT.
MFC after: 7 days
Tested by: bz (LS1088a FDT), Pierre-Luc Drouin (Honeycomb, ACPI)
Based on: D24917 by Val Packett (initial early version)
Differential Revision: https://reviews.freebsd.org/D44020
There is no reason to have macros for this. Putting the code in
sndstat_prepare_pcm() directly makes it easier to work with it.
No functional change intended.
Sponsored by: The FreeBSD Foundation
MFC after: 2 weeks
Reviewed by: markj
Differential Revision: https://reviews.freebsd.org/D44545
Prevent a use-after-free in kern_poll() by making sure the buffer's
selinfo is drained. This is required for a subsequent patch that
implements asynchronous audio device detach.
Reported by: KASAN
Sponsored by: The FreeBSD Foundation
MFC after: 2 weeks
Reviewed by: markj
Differential Revision: https://reviews.freebsd.org/D44544
netmap_generic keeps a pool of mbufs for handling transfers, these mbufs
have an external buffer attached to them.
If some cases other parts of the network stack can chain these mbufs,
when this happens the normal pool destructor function can end up
free'ing the pool mbufs twice:
- A first time if a pool mbuf has been chained with another mbuf when
its chain is freed
- A second time when its entry in the pool is freed
Additionally, if other parts of the stack demote a pool mbuf its
interface reference will be cleared. In this case we deference a NULL
pointer when trying to free the mbuf through the destructor. Store a
reference to the adapter in ext_arg1 with the destructor callback so we
can find the correct adapter when free'ing a pool mbuf.
This change enables using netmap with epair interfaces.
Reviewed By: vmaffione
MFC after: 1 week
Relnotes: yes
Sponsored by: The FreeBSD Foundation
Differential Revision: https://reviews.freebsd.org/D44371
This is used in NVMe over Fabrics to enumerate a list of available
controllers.
Reviewed by: imp
Sponsored by: Chelsio Communications
Differential Revision: https://reviews.freebsd.org/D44446
nvme(4) doesn't check this flag, but Fabrics implementations may need
to set this flag in the log page attributes cdata field.
Reviewed by: imp
Sponsored by: Chelsio Communications
Differential Revision: https://reviews.freebsd.org/D44444
This is not used in nvme(4) but is used in NVMe over Fabrics
transports which use SGLs to describe buffers instead of PRPs.
While here, adjust the shift value for the FUSE field to be relative
to the 'fuse' member of 'struct nvme_command'.
Reviewed by: imp
Sponsored by: Chelsio Communications
Differential Revision: https://reviews.freebsd.org/D44443
Fabrics capsules use an SGL structure instead of prp1/2 addresses to
describe the data buffer used for a command. The SGL structure is
added to a union with the existing prp1/2 fields.
Reviewed by: imp
Sponsored by: Chelsio Communications
Differential Revision: https://reviews.freebsd.org/D44442
These are useful for NVMe over Fabrics.
Reviewed by: imp
Sponsored by: Chelsio Communications
Differential Revision: https://reviews.freebsd.org/D44441
Use a separate state for when a request to set RX_QUIESCE has been
sent but the resulting TCB reply has not been received. In
particular, this correctly handles the case where data has been
received and queued in the receive queue before the quiesce request
takes effect.
Reviewed by: np
Sponsored by: Chelsio Communications
Differential Revision: https://reviews.freebsd.org/D44435
When this socket option is enabled, relatively large contiguous
buffers are allocated and used to receive data from the remote
connection. When data is received a wrapper M_EXT mbuf is queued to
the socket's receive buffer. This reduces the length of the linked
list of received mbufs and allows consumers to consume receive data in
larger chunks.
To minimize reprogramming the page pods in the adapter, receive
buffers for a given connection are recycled. When a buffer has been
fully consumed by the receiver and freed, the buffer is placed on a
per-connection free buffers list.
The size of the receive buffers defaults to 256k and can be set via
the hw.cxgbe.toe.ddp_rcvbuf_len sysctl. The
hw.cxgbe.toe.ddp_rcvbuf_cache sysctl (defaults to 4) determines the
maximum number of free buffers cached per connection. Note that this
limit does not apply to "in-flight" receive buffers that are
associated with mbufs in the socket's receive buffer.
Co-authored-by: Navdeep Parhar <np@FreeBSD.org>
Sponsored by: Chelsio Communications
Differential Revision: https://reviews.freebsd.org/D44001
In preperation for adding debug port support add a generic function
to setup the uart from ACPI tables.
Reviewed by: imp
Sponsored by: Arm Ltd
Differential Revision: https://reviews.freebsd.org/D44358
Split out the common parts of building the uart devinfo from ACPI
tables from the SPCR parser. This will be used when we support the DBG2
table to find the debug uart to be used by the kernel gdb stub.
Reviewed by: imp
Sponsored by: Arm Ltd
Differential Revision: https://reviews.freebsd.org/D44357
Without appropriate load-synchronization to pair with store barriers in
wg_encrypt() and wg_decrypt(), the compiler and hardware are often
allowed to reorder these loads in wg_deliver_out() and wg_deliver_in()
such that we end up with a garbage or intermediate mbuf that we try to
pass on. The issue is particularly prevalent with the weaker
memory models of !x86 platforms.
Switch from the big-hammer wmb() to more explicit acq/rel atomics to
both make it obvious what we're syncing up with, and to avoid somewhat
hefty fences on platforms that don't necessarily need this.
With this patch, my dual-iperf3 reproducer is dramatically more stable
than it is without on aarch64.
PR: 264115
MFC after: 1 week
Reviewed by: andrew, zlei
Differential Revision: https://reviews.freebsd.org/D44283
